EFFECT OF INTERFACIAL THERMAL CONDUCTANCE BETWEEN THE NANOPARTICLES

机译：纳米微粒之间的界面导热系数的影响

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Heat transport across nanostructured interfaces, such as between nanoparticles, has been of great interest for advanced thermal management. Interfacial thermal conductance, G, is central to understanding thermal heat transport between nanoparticles that have a contact point between each other as well as the surrounded medium. In this study, we show that G dominates the heat transport compared to the conduction and radiation heat transfer modes between the nanoparticles for values higher than ～20 (MW/m~2K). We also investigate the effect of radius of contact between the nanoparticles on the overall modes of heat transfer.

机译：跨纳米结构界面（例如，纳米粒子之间）的热传输对于高级热管理非常重要。界面导热系数G是理解彼此之间具有接触点的纳米颗粒与被包围的介质之间的热传递的关键。在这项研究中，我们表明，与纳米颗粒之间的传导和辐射传热模式相比，G占主导地位，其值大于〜20（MW / m〜2K）。我们还研究了纳米颗粒之间的接触半径对整体传热模式的影响。

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《ASME international technical conference and exhibition on packaging and integration of electronic and photonic microsystems》|2018年|V001T01A002.1-V001T01A002.6|共6页
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Anil Yuksel; Edward T. Yu; Michael Cullinan; Jayathi Murthy;
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Micro-Nanoscale Thermal Energy Transport; Interfacial Thermal Conductance; Nanoparticle Packings;

机译：微纳热能传输;界面导热纳米颗粒填料;

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2. A Modified Theoretical Model to Accurately Account for Interfacial Roughness in Predicting the Interfacial Thermal Conductance [J] . Zhang Yingying, Ma Dengke, Zang Yi, Frontiers in Energy Research . 2018,第1期

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3. Tuning the Interfacial Thermal Conductance between Polystyrene and Sapphire by Controlling the Interfacial Adhesion [J] . Zheng Kun, Sun Fangyuan, Tian Xia, ACS applied materials & interfaces . 2015,第42期

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4. EFFECT OF INTERFACIAL THERMAL CONDUCTANCE BETWEEN THE NANOPARTICLES [C] . Anil Yuksel, Edward T. Yu, Michael Cullinan, ASME International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems . 2019

机译：纳米颗粒之间的界面热敏的影响
5. Interfacial Thermal Conductance Between Monolayer WSe2 and SiO2 with Consideration of Radiative Electron-Hole Recombination [D] . Hunter, Nicholas. 2020

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7. Interfacial engineering for the enhancement of interfacial thermal conductance in GaN/AlN heterostructure [O] . Quanjie Wang, Xujun Wang, Xiangjun Liu, 2021

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8. Interfacial Thermal Conductance Limit and Thermal Rectification Across Vertical Carbon Nanotube/Graphene Nanoribbon-Silicon Interfaces. [R] . Vallabhaneni, A. K., Qiu, B., Hu, J., 2013

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EFFECT OF INTERFACIAL THERMAL CONDUCTANCE BETWEEN THE NANOPARTICLES

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